LMDh
LMDh, an abbreviation for Le Mans Daytona h, is a set of technical regulations for hybrid prototype sports cars designed for top-tier endurance racing, jointly developed by the International Motor Sports Association (IMSA) and the Automobile Club de l'Ouest (ACO) to align competition between the FIA World Endurance Championship (WEC) and the IMSA WeatherTech SportsCar Championship.[1] The formula prioritizes cost control and accessibility for manufacturers by mandating standardized components, including chassis from one of four approved constructors (Dallara, Ligier Automotive, Multimatic Motorsports, or Oreca) and a spec hybrid energy recovery system, while allowing flexibility in engine development and bodywork design.[2] Introduced in 2023, LMDh cars compete in the WEC's Hypercar class alongside Le Mans Hypercar (LMH) entries and form the exclusive Grand Touring Prototype (GTP) class in IMSA, with key specifications including a minimum weight of 1,030 kg, a maximum width of 2 meters, a maximum length of 5.15 meters, and a combined power output limited to 500 kW (approximately 670 hp).[2][3] The development of LMDh stemmed from efforts in 2020 to converge prototype racing standards across global series, replacing IMSA's Daytona Prototype international (DPi) category and providing a more affordable pathway for automakers to enter endurance racing compared to the bespoke LMH regulations.[4] This convergence enables LMDh cars to race at events like the 24 Hours of Le Mans without major modifications, fostering greater manufacturer participation and technological innovation in hybrid powertrains.[5] By 2025, the class features prominent entries from manufacturers such as Porsche (963), BMW (M Hybrid V8), Cadillac (V-Series.R), Honda (Acura ARX-06), Lamborghini (SC63), and Alpine (A424), all utilizing rear-wheel-drive hybrid configurations with internal combustion engines ranging from turbocharged V6s to V8s.[6][7] LMDh's hybrid system, supplied by a consortium including Bosch for the motor-generator unit and hybrid controls, Xtrac for the transmission, and Williams Advanced Engineering for energy storage, deploys up to 200 kW of electric power during acceleration, integrated with manufacturer-specific combustion engines that produce around 400 kW.[8] The regulations enforce Balance of Performance (BoP) adjustments to ensure parity among diverse power units, promoting close competition in races that emphasize reliability, strategy, and driver skill over raw power.[3] Since its debut, LMDh has revitalized prototype racing by lowering entry barriers—estimated at under €7 million per program—leading to increased grid sizes and high-profile wins, such as Porsche's victory at the 2023 24 Hours of Le Mans.[9]Overview
Definition and Purpose
LMDh, an acronym for Le Mans Daytona h, represents a standardized set of technical regulations governing hybrid-powered Le Mans Prototype racing cars intended for equivalence with Le Mans Hypercar (LMH) vehicles in top-tier endurance competitions. These regulations specify a common chassis formula supplied by approved manufacturers, paired with standardized hybrid energy recovery and deployment components, while permitting teams to integrate proprietary internal combustion engines and aerodynamic bodywork.[10] The naming convention reflects its dual heritage: "Le Mans" honors the iconic 24 Hours of Le Mans race and the FIA World Endurance Championship (WEC), "Daytona" nods to the Rolex 24 at Daytona and the IMSA WeatherTech SportsCar Championship, and "h" denotes the hybrid powertrain central to the formula. Developed collaboratively by the Automobile Club de l'Ouest (ACO), the Fédération Internationale de l'Automobile (FIA), and IMSA, LMDh aims to lower barriers to entry for automakers with an estimated cost of approximately €1 million for a complete chassis (excluding the engine), as targeted in initial regulations, making high-level prototype racing more accessible than previous generations.[2][11] The primary purpose of LMDh is to reduce development and operational costs for manufacturers, targeting program budgets in the range of €7-10 million annually, through shared components and simplified homologation processes that avoid the need for entirely bespoke designs. This cost-efficiency facilitates broader participation by allowing a single car configuration to race in both IMSA's Grand Touring Prototype (GTP) class and the WEC's Hypercar category, fostering cross-series competition without duplicating efforts.[12][13] Key objectives include driving global regulatory convergence between IMSA and WEC to unify the endurance racing landscape, while maintaining performance balance with LMH cars via Balance of Performance adjustments that equalize speed, fuel consumption, and energy deployment across diverse powertrains. By prioritizing affordability and interoperability, LMDh seeks to attract more OEM involvement and sustain long-term viability for prototype racing; the regulations have since been extended to the end of 2032.[14][15][16]Relation to LMH and Convergence
Le Mans Hypercar (LMH) regulations were introduced by the Fédération Internationale de l'Automobile (FIA) and the Automobile Club de l'Ouest (ACO) in 2020, establishing a bespoke framework for manufacturers to create custom hypercar prototypes with extensive design freedom, including options for hybrid or non-hybrid powertrains limited to approximately 500 kW (670 hp) total output.[17] In contrast, Le Mans Daytona h (LMDh) employs a spec-series approach, mandating standardized chassis options from approved constructors and a common hybrid energy recovery system to promote cost control and technical parity among entrants.[18] The convergence process originated from collaborative initiatives between the International Motor Sports Association (IMSA), FIA, and ACO beginning in 2019, with the goal of integrating IMSA's existing Daytona Prototype International (DPi) category—its prior top prototype class—with the emerging LMH framework into a single global "Hypercar" or "GTP" division.[4] This effort culminated in the January 2020 announcement of the LMDh concept as a cost-capped counterpart to LMH, enabling both car types to race head-to-head under Balance of Performance (BoP) adjustments to equalize competition across series. This harmonization offers key advantages, including shared technical specifications outlined in the July 2021 agreement between IMSA, FIA, and ACO, which facilitates cost reductions via standardized suppliers for hybrid components and power units, and permits LMDh and LMH vehicles to participate interchangeably in the FIA World Endurance Championship (WEC) and IMSA WeatherTech SportsCar Championship with minimal adaptations.[14] Regulatory finalization in 2021 targeted LMDh's debut for the 2023 IMSA season and from 2023 in the WEC (initially planned for 2024 but advanced with first entries in 2023), broadening manufacturer access to international endurance racing while maintaining competitive balance.[19]Technical Regulations
Chassis and Bodywork Requirements
LMDh regulations mandate the use of a standardized monocoque chassis constructed primarily from carbon fiber composite materials to ensure structural integrity, safety, and cost efficiency.[2] Automakers must select from one of four approved chassis constructors: Dallara, Ligier Automotive, Multimatic Motorsports, or Oreca, each providing a base chassis derived from existing LMP2 designs with adaptations for hybrid integration.[2] The minimum weight of the complete car, including the hybrid powertrain, is set at 1030 kg to balance performance and safety, with Balance of Performance allowing up to an additional 70 kg of ballast as of 2025.[2][20] Dimensional constraints include a fixed wheelbase of 3150 mm, a maximum overall length of 5100 mm, and a maximum width of 2000 mm, promoting parity among competitors while allowing limited flexibility for manufacturer-specific adaptations.[11] Bodywork in LMDh cars features a closed-cockpit design, aligning with modern prototype safety standards and providing a protected environment for the driver.[10] To foster visual similarity and brand identity, regulations specify standardized front and rear clams, sidepods, and underbody elements, with manufacturers granted aesthetic freedom primarily in upper bodywork styling, such as rooflines and liveries, within defined aerodynamic envelopes.[21] This approach controls development costs by limiting bespoke components while enabling recognizable manufacturer designs, such as those seen in the Porsche 963 or Cadillac V-Series.R.[22] Aerodynamic constraints emphasize a spec-series philosophy, with a standardized flat floor and rear diffuser design to generate consistent downforce levels across all entries.[23] Regulations cap the lift-to-drag (L/D) ratio at approximately 1:4 to optimize efficiency without excessive drag, enforced through mandatory computational fluid dynamics (CFD) simulations and wind tunnel testing approved by IMSA and the FIA.[24] Active aerodynamic elements are prohibited except for those tied to hybrid energy deployment modes, ensuring passive aero dominance for race stability.[2] Safety features integrated into the chassis comply with FIA Appendix J standards, including a robust front roll hoop and main roll structure made from high-strength steel tubing to protect against rollover impacts.[10] Side impact protection incorporates energy-absorbing composite panels and deformable structures along the monocoque sides, meeting FIA Article 253 requirements for crash energy management.[10] The fuel cell, a crash-resistant bladder system, must be positioned aft of the driver's compartment and secured per Appendix J specifications to minimize fire risks during collisions.[25] These elements collectively enhance occupant protection in high-speed endurance racing environments.[10]Hybrid Powertrain Specifications
The hybrid powertrain in Le Mans Daytona hybrid (LMDh) vehicles combines a manufacturer-developed internal combustion engine (ICE) with a standardized hybrid energy recovery system (ERS), enabling all-wheel drive while maintaining cost controls through shared components. The ICE is rear-mounted and typically consists of a twin-turbocharged V6 or V8, with displacements ranging from 3.0 to 5.5 liters depending on the automaker—for example, BMW's 4.0-liter V8 or Porsche's 4.6-liter V8—producing approximately 450 kW (603 hp) of thermal power, combined with the hybrid system for a total output capped at 500 kW (670 hp), adjustable via Balance of Performance.[26][27][2] To ensure parity, all LMDh cars in IMSA-sanctioned events use specification fuel from VP Racing Fuels, a 98-octane unleaded gasoline formulated for endurance racing.[8] The core of the hybrid system is a spec battery pack developed by Williams Advanced Engineering, featuring a lithium-ion design with 1.35 kWh (approximately 4.86 MJ) of usable energy storage and a minimum weight of 45 kg, excluding supercapacitors which are prohibited to standardize performance.[28] This battery pairs with a Bosch-supplied motor generator unit kinetic (MGU-K) integrated on the front axle via the spec Xtrac sequential gearbox, providing up to 50 kW (67 hp) of continuous electric power to the front wheels for traction enhancement and a peak regenerative capacity of 200 kW during braking.[29][8] An optional MGU-H for exhaust energy recovery is permitted but strictly limited in power output to prevent disparities, though few manufacturers have implemented it. The combined ICE and hybrid setup yields a total system output nominally capped at 500 kW (670 hp) under full deployment, with Balance of Performance adjustments allowing up to 520 kW (698 hp) depending on track and conditions, the front-axle electric motor contributing to balanced weight distribution when integrated into the chassis.[22][30] Energy deployment varies by racing series to align with competition formats: in IMSA's GTP class, the hybrid provides continuous low-power assistance (50 kW) at low speeds for corner exit traction, with higher peak outputs (up to 200 kW) available in short bursts subject to the Performance Equity Model for balance, while in the FIA World Endurance Championship, deployment is more unrestricted but still totals under the 520 kW limit.[8][31] Recharging occurs primarily through kinetic energy harvested from braking via the front MGU-K, supplemented by thermal recovery if an MGU-H is fitted, ensuring the battery remains within operational limits without time- or distance-based restrictions on usage. To maintain fairness during reduced-speed periods, the entire hybrid system must shut down automatically under safety car or full-course yellow conditions, preventing regenerative advantages.[10]Balance of Performance and Safety
The Balance of Performance (BoP) framework for LMDh vehicles is overseen by the technical committees of the FIA and IMSA, ensuring competitive parity between LMDh prototypes and Le Mans Hypercar (LMH) entries in joint series like the FIA World Endurance Championship (WEC) and IMSA SportsCar Championship. This system involves adjustable parameters such as powertrain output mapping, minimum ride heights at the front and rear axles, fixed ballast allocation (positioned between the wheel axles and included above the minimum vehicle weight, up to +70 kg as of 2025), and restrictions on turbo boost pressure for relevant engine configurations. These measures aim to equalize overall performance without altering core technical specifications, with IMSA holding final authority on decisions.[32][20][33] Testing protocols for BoP begin pre-season with mandatory wind tunnel evaluations to assess aerodynamic efficiency and dynamometer sessions to verify power curves and torque delivery against regulatory limits. These baselines inform initial homologation, with data compared to standardized envelopes (e.g., maximum powertrain performance thresholds scaled to engine speed). In-season refinements occur periodically, typically limited to two major updates per championship year, drawing from telemetry analysis of race outcomes including lap times, brake-specific fuel consumption rates, and tire degradation patterns to address any emerging disparities. Adjustments are published via official tables, promoting ongoing equity as track conditions and strategies evolve.[34][20][35] Safety regulations for LMDh cars mandate fire suppression systems throughout the vehicle, particularly around the powertrain and fuel cell areas, to mitigate risks in high-energy environments. Structural integrity is enforced through rigorous crash testing protocols, including frontal offset impacts and side intrusion simulations, with all ballast secured within tested components to maintain deceleration profiles. Hybrid-specific fail-safes incorporate automatic power circuit disconnections upon detecting faults or collisions, preventing electrical hazards, alongside external indicators like flashing lights to signal unsafe conditions to marshals. As of 2025, additional requirements include a mandatory rear-view camera system and homologated fuel flow meters from FIA Technical List 46 for enhanced monitoring.[20][36][37] The BoP system evolved with LMDh's debut, featuring initial IMSA tables for the 2023 season that set power outputs between 510-520 kW and energy deployment limits tailored to each manufacturer's setup. Integration into the WEC from 2023 required harmonization with LMH parameters, leading to 2024 refinements such as platform-specific tweaks for events like the 24 Hours of Le Mans, including adjusted maximum stint energies and weights to balance hybrid deployment strategies across categories. These changes have supported closer racing, with ongoing convergence efforts emphasizing data-driven parity.[38][24]History
Origins in DPi and Early Proposals
The Daytona Prototype international (DPi) class was introduced by the International Motor Sports Association (IMSA) in 2017 as a cost-effective evolution of prototype racing, utilizing standardized LMP2 chassis from approved constructors such as Dallara, Ligier, Multimatic, and Onroak Automotive, paired with manufacturer-developed engines and bodywork to create closed-cockpit prototypes.[39] This approach aimed to lower entry barriers compared to the previous Daytona Prototypes while attracting major automakers like Cadillac, Nissan, and Honda (under the Acura brand), resulting in five DPi entries for the 2017 season opener at the Rolex 24 at Daytona. The class quickly gained traction, with Cadillac securing the manufacturers' championship and 27 overall victories across its run, demonstrating DPi's appeal through competitive racing and manufacturer involvement.[40] Despite its success, DPi faced criticism for escalating costs, with development budgets for a single program estimated at around 5 million euros—still a fraction of the 500 million euros required for LMP1 hybrids but significant for sustained participation.[41] These concerns prompted IMSA to explore evolutions, culminating in the 2018 DPi 2.0 proposal, which envisioned a hybrid upgrade to the existing platform, including standardized hybrid energy recovery systems capped at 100,000 dollars and aerodynamic alignments with the Automobile Club de l'Ouest (ACO)'s forthcoming LMP1 successor to enhance global compatibility.[42] Manufacturers expressed support for hybridization provided it remained supplier-based to control expenses, reflecting a desire to incorporate sustainable technology without repeating LMP1's financial pitfalls.[43] Early discussions revealed significant challenges in aligning IMSA's closed-cockpit, manufacturer-focused DPi with the FIA and ACO's preferences, which historically favored open-top designs in Le Mans Prototypes and emphasized broader accessibility in the post-LMP1 era.[44] Automakers provided critical feedback on the LMP1 category's budget overruns, where programs exceeded 100 million dollars due to bespoke hybrid systems and unrestricted development, leading to withdrawals by Audi and Porsche and leaving Toyota as the sole hybrid entrant by 2018.[44] These insights underscored the need for cost-capped convergence to sustain manufacturer interest. Parallel to this, the ACO pursued its own Le Mans Hypercar (LMH) initiative as a non-standardized, road-car-derived formula.[45] Key events from 2017 to 2018 included initial bilateral talks between IMSA and the ACO/FIA to bridge North American and European regulations, focusing on shared performance targets and hybrid integration to avoid siloed development.[46] By mid-2018, IMSA manufacturers reviewed ACO's hypercar outline, praising its low-cost ethos but urging standardization to prevent cost creep.[44] In 2019, IMSA initially advanced DPi 2.0 as a mild-hybrid evolution of the LMP2 chassis but ultimately rejected a purely IMSA-centric path, opting instead for a joint global standard to enable cross-competition with ACO events.[4] This pivot addressed manufacturer demands for interoperability, setting the stage for unified prototype racing.[45]Development and Regulatory Convergence
The development of Le Mans Daytona h (LMDh) regulations began in earnest in early 2020 as a collaborative effort between the Automobile Club de l'Ouest (ACO), the International Motor Sports Association (IMSA), and the Fédération Internationale de l'Automobile (FIA) to create a cost-effective hybrid prototype class compatible with both the FIA World Endurance Championship (WEC) and IMSA WeatherTech SportsCar Championship. Building on the foundation of IMSA's Daytona Prototype international (DPi) category, which had successfully attracted manufacturers since 2017, the organizations announced a joint regulatory framework on January 24, 2020, targeting LMDh introduction in the 2022 season. This agreement emphasized standardized components to reduce development expenses compared to bespoke designs.[47] Key milestones unfolded rapidly in 2020. On May 7, draft technical regulations were released, specifying a minimum weight of 1,030 kg, a combined power output cap of 500 kW (approximately 670 hp), and eligibility restricted to mainstream automotive manufacturers partnering with one of four approved chassis constructors: Dallara, Ligier Automotive, Multimatic Motorsports, and Oreca. By September 18, the regulations were finalized at a press conference during the 24 Hours of Le Mans, confirming a spec hybrid system supplied by Bosch (motor-generator unit), Williams Advanced Engineering (battery), and Xtrac (gearbox integration), with rear-wheel-drive hybrid deployment and a cost ceiling of around €1 million excluding the engine. Porsche became the first manufacturer to commit on December 16, 2020, announcing plans for an LMDh prototype to race from 2023 onward, leveraging a brand-specific twin-turbo V8 engine on a standardized chassis. Cadillac followed suit, expressing interest in March 2021 before officially committing on August 24, 2021, to field Dallara-chassised cars with Action Express Racing and Chip Ganassi Racing as partners. To control costs and ensure parity, the regulations imposed development constraints, including aerodynamic "freezes" tied to homologation and Balance of Performance (BoP) oversight, limiting manufacturer-specific bodywork and aero innovations after initial approval.[18][2][48][49] A pivotal compromise emerged in the hybrid standardization, which contrasted with the more expensive, custom hybrid systems allowed under the Le Mans Hypercar (LMH) rules; this spec approach aimed to cap expenses at levels accessible to a broader range of constructors while maintaining competitive balance through BoP. The July 9, 2021, memorandum of understanding between the ACO, FIA, and IMSA further advanced convergence by permitting LMH prototypes to race against LMDh cars in IMSA starting in 2023 and allowing LMDh entries in the WEC from the same year, fostering a unified top-class prototype field across series. By late 2021, additional commitments from manufacturers like Audi and BMW solidified the category's viability.[14] Finalization occurred in 2022, with detailed homologation guidelines published in December, outlining processes for spare parts lists, pricing transparency, and five-year certification cycles to lock in designs and prevent cost escalation. The first LMDh prototypes began emerging that year, exemplified by Porsche's unveiling of the 963 concept on June 24 at the Goodwood Festival of Speed, featuring Multimatic chassis construction and a hybrid powertrain aligned with the spec regulations. These steps ensured LMDh's readiness for seamless integration into both championships while prioritizing affordability and technological relevance.[50][51]Introduction and Initial Seasons
The Le Mans Daytona h (LMDh) regulations marked their competitive debut in the 2023 IMSA WeatherTech SportsCar Championship, where they replaced the Daytona Prototype international (DPi) class to form the new Grand Touring Prototype (GTP) category. The season-opening Rolex 24 At Daytona featured nine LMDh entries from manufacturers including Acura, Cadillac, Porsche, and BMW, representing a full transition to hybrid prototypes in IMSA's top tier. Meyer Shank Racing's Acura ARX-06 claimed victory in the inaugural GTP race, highlighting the class's immediate competitiveness despite the novelty of the hybrid systems. Early racing revealed teething problems with the standardized hybrid components, particularly battery management and thermal regulation. For instance, the Porsche Penske Motorsport Porsche 963 suffered battery failures and engine overheating during the 2023 Daytona event, forcing extended pit stops and underscoring the challenges of integrating the spec Bosch-supplied hybrid system under race conditions. Balance of Performance (BoP) adjustments were promptly refined by IMSA throughout the season to address disparities in power delivery and energy deployment, ensuring closer racing among the diverse LMDh constructors while maintaining safety standards. These iterations focused on parameters like minimum weight, power output, and energy harvesting limits to foster parity without compromising reliability.[52] In 2024, LMDh expanded to the FIA World Endurance Championship (WEC) Hypercar class, creating the first mixed field of LMDh and Le Mans Hypercar (LMH) prototypes at events like the 24 Hours of Le Mans. Ferrari's 499P LMH secured the Le Mans victory, but LMDh cars demonstrated growing potential with finishes in the top 10, including the Cadillac V-Series.R in seventh and the BMW M Hybrid V8 in eighth, as BoP harmonization between the series refined convergence between the two formulas. By 2025, the WEC featured 18 Hypercar entries (within a 36-car total grid), with over a dozen LMDh entries contributing to larger fields and enhanced manufacturer participation. Reliability saw notable improvements, with hybrid system upgrades addressing 2023-era issues like voltage instability, leading to fewer retirements and more consistent performance across seasons. Cost analyses indicated LMDh programs achieved significant savings over equivalent DPi efforts, primarily through standardized components and reduced development scope, enabling broader automaker involvement without escalating budgets. Porsche Penske Motorsport secured an LMDh victory at the 2025 24 Hours of Le Mans with the 963. In October 2025, Porsche announced it would conclude its factory WEC Hypercar program at the end of the season, while maintaining IMSA GTP participation.[53][54]Manufacturers and Constructors
Participating Automakers
Porsche was among the first automakers to commit to the LMDh category, unveiling the 963 prototype in 2022 for a debut at the 2023 Rolex 24 at Daytona.[55] The program, run through the factory-backed Porsche Penske Motorsport team, aimed to secure a 20th overall victory at the 24 Hours of Le Mans by leveraging hybrid technology derived from road-car electrification efforts, marking Porsche's return to top-tier prototype racing after focusing on GT classes.[56] Customer teams, such as Hertz Team Jota in the FIA World Endurance Championship (WEC) and Proton Competition in IMSA, expanded the effort from mid-2023, allowing broader participation while maintaining factory development control.[57] Cadillac followed suit with the V-Series.R, debuting in the 2023 IMSA season opener at Daytona as part of General Motors' strategy to dominate American endurance racing and challenge for an overall Le Mans win—the first for an American manufacturer since Ford in 1967.[58] The program emphasized integration of production-derived components, including a 5.5-liter V8 engine evolved from the Blackwing unit in the CT5-V sedan, to bridge road and race technologies.[49] Factory-supported entries through Chip Ganassi Racing and later Action Express Racing and Wayne Taylor Racing with Andretti Autosport provided multiple cars in IMSA, with expansions to WEC via Jota from 2023, blending factory oversight with customer scalability.[59] BMW entered the LMDh fray with the M Hybrid V8, which made its competitive debut at the 2023 Daytona 24 Hours, driven by a desire to revitalize the BMW M brand's global endurance presence and pursue victories at Le Mans after a 25-year absence from overall contention.[60] The initiative focused on hybrid powertrain innovations transferable to high-performance road models, with factory operations via Rahal Letterman Lanigan Racing in IMSA and BMW M Team WRT in WEC starting in 2024.[61] Customer programs, including The Heart of Racing in IMSA, enabled wider grid representation without diluting core development.[62] Honda, through its Acura luxury division, launched the ARX-06 in 2023 for IMSA's GTP class, building on the brand's prototype racing legacy from the DPi era to advance hybrid electrification expertise applicable to production vehicles like the NSX successor.[63] The program, powered by a 2.4-liter twin-turbo V6, prioritized intense competition to refine energy deployment systems, with factory-aligned teams Wayne Taylor Racing and Meyer Shank Racing fielding the entries exclusively in IMSA, forgoing WEC involvement to focus on North American dominance.[64] Lamborghini introduced the SC63 in 2024, marking the brand's inaugural foray into the Hypercar class as a strategic expansion beyond GT racing, motivated by the cost-effective LMDh pathway to showcase V8 hybrid performance derived from road models like the Revuelto.[65] The effort, managed by factory team Iron Lynx, debuted in both IMSA and WEC, with a focus on reliability and adaptability in multi-class environments, but paused WEC operations in 2025; the program was placed on hold after the 2025 IMSA season.[66] Alpine joined later with the A424, debuting in the 2024 WEC opener at Qatar to reestablish the French marque's endurance heritage and compete for overall honors at Le Mans, utilizing a turbocharged V6 hybrid system informed by Formula 1 engine partnerships.[67] The fully factory-run program through Signatech-Alpine Racing emphasized rapid development for global visibility, pairing the powertrain with an Oreca chassis to align with LMDh's balanced philosophy.[68] As of late 2025, additional LMDh programs are in development, including Genesis (Hyundai's luxury arm) targeting a 2026 WEC entry and 2027 IMSA debut to elevate brand prestige through prototype racing, and both Ford and McLaren planning 2027 debuts in WEC's Hypercar class to revive their endurance legacies with customer-oriented models.[69][70] Aston Martin, initially considered for LMDh, opted for an LMH Valkyrie program debuting in 2025, forgoing the hybrid-spec chassis route.[22]Chassis and Component Suppliers
The LMDh regulations designate four approved chassis constructors to provide standardized rolling chassis, promoting cost control by capping prices and limiting production volumes. These constructors—Dallara Automobili, Oreca, Multimatic Motorsports, and Ligier Automotive—each manufacture approximately 20 chassis units per season to support multiple automaker programs, ensuring availability while preventing overproduction.[71][72] Dallara supplies chassis for Cadillac and BMW entries, such as the Cadillac V-Series.R and BMW M Hybrid V8, leveraging its expertise in carbon-fiber monocoques designed to integrate with the spec hybrid system. Oreca provides chassis for Acura and Alpine, including the Acura ARX-06 and Alpine A424, emphasizing modular designs that accommodate various engine layouts while adhering to the 1030 kg minimum weight. Multimatic constructs chassis for Porsche's 963, focusing on advanced suspension geometry and aerodynamic integration to balance performance across IMSA and WEC series. Ligier Automotive delivers chassis for Lamborghini's SC63, incorporating lightweight composites and standardized mounting points for the hybrid powertrain to facilitate rapid assembly and homologation.[73][74] The hybrid system components are supplied by a consortium selected through a competitive tender process initiated in 2020 by IMSA and the ACO, with contracts extending through the 2028 season to maintain supply chain stability and technological parity. Williams Advanced Engineering provides the high-voltage battery pack, capable of delivering up to 50 kW of continuous power and supporting energy recovery up to 200 kW. Bosch supplies the motor-generator unit (MGU) and hybrid control units, ensuring precise power deployment limited to the rear axle for traction control. Xtrac furnishes the seven-speed sequential gearbox with integrated hybrid functionality, designed for seamless energy flow between the internal combustion engine and electric components.[8][75][30] Additional standardized components further standardize costs and performance. Michelin serves as the sole tire supplier, providing spec slicks and wets optimized for the 18-inch wheels, with compounds selected per event to equalize grip across the GTP and Hypercar fields. AP Racing equips over half of the LMDh grid with carbon-ceramic brake systems, including six-piston calipers designed for 380 mm discs to handle the hybrid powertrain's torque without fade. ATL (Aero Tec Laboratories) supplies fuel cell bladders and refueling systems compliant with FIA safety standards, integrated into the chassis to support sustainable fuels while minimizing weight. These supplier selections, rooted in the 2020-2021 tender processes, enable automakers to focus on branding and engine development rather than duplicating expensive infrastructure.[76][77][78]List of LMDh Homologated Cars
The Le Mans Daytona h (LMDh) regulations have resulted in a select group of homologated prototype race cars, standardized around a common hybrid powertrain while allowing manufacturer-specific engines and approved chassis from a limited pool of suppliers. As of 2025, six LMDh models have received full homologation from the FIA and IMSA, enabling their participation in the World Endurance Championship (WEC) Hypercar class and IMSA SportsCar Championship GTP class, respectively. These cars underwent aerodynamic evolution updates approved for the 2025 season to maintain performance balance.[79][80]| Manufacturer | Model | Chassis Supplier | Powertrain | Primary Teams |
|---|---|---|---|---|
| Porsche | 963 | Multimatic | Porsche 4.6L twin-turbo V8 hybrid | Porsche Penske Motorsport, customer teams |
| Cadillac | V-Series.R | Dallara | GM 5.5L V8 hybrid | Action Express Racing, Whelen Engineering Racing (JOTA in WEC) |
| BMW | M Hybrid V8 | Dallara | BMW 4.0L V8 hybrid | BMW M Team WRT (WEC), Rahal Letterman Lanigan (IMSA) |
| Acura | ARX-06 | Oreca | Honda 2.4L twin-turbo V6 hybrid | Wayne Taylor Racing, Meyer Shank Racing |
| Lamborghini | SC63 | Ligier | Lamborghini 3.8L twin-turbo V8 hybrid | Iron Lynx (WEC paused), Trussardi Racing (IMSA) |
| Alpine | A424 | Oreca | Renault 3.4L turbo V6 hybrid | Alpine Elf Team |